This patch contains the PMU context switch routines.
For per-thread contexts, the PMU state must be saved and restored on
context switch. For systm-wide context we may need to intervene on
certain architectures to cleanup certain registers.
The PMU context switch code is concentrated into a single routine
named pfm_ctxsw() which is called from __switch_to().
Because accessing PMU registers is usually much more expensive
than accessing general registers, we take great care at minimizing
the number of register accesses using various lazy save/restore schemes
for both UP and SMP kernels.
--- linux-2.6.19.base/perfmon/perfmon_ctxsw.c 1969-12-31 16:00:00.000000000 -0800
+++ linux-2.6.19/perfmon/perfmon_ctxsw.c 2006-12-04 02:01:36.000000000 -0800
@@ -0,0 +1,349 @@
+/*
+ * perfmon_cxtsw.c: perfmon2 context switch code
+ *
+ * This file implements the perfmon2 interface which
+ * provides access to the hardware performance counters
+ * of the host processor.
+ *
+ * The initial version of perfmon.c was written by
+ * Ganesh Venkitachalam, IBM Corp.
+ *
+ * Then it was modified for perfmon-1.x by Stephane Eranian and
+ * David Mosberger, Hewlett Packard Co.
+ *
+ * Version Perfmon-2.x is a complete rewrite of perfmon-1.x
+ * by Stephane Eranian, Hewlett Packard Co.
+ *
+ * Copyright (c) 1999-2006 Hewlett-Packard Development Company, L.P.
+ * Contributed by Stephane Eranian <[email protected]>
+ * David Mosberger-Tang <[email protected]>
+ *
+ * More information about perfmon available at:
+ * http://perfmon2.sf.net
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of version 2 of the GNU General Public
+ * License as published by the Free Software Foundation.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
+ * 02111-1307 USA
+ */
+#include <linux/kernel.h>
+#include <linux/perfmon.h>
+
+/*
+ * used only in UP mode
+ */
+void pfm_save_prev_context(struct pfm_context *ctxp)
+{
+ struct pfm_event_set *set;
+
+ /*
+ * in UP per-thread, due to lazy save
+ * there could be a context from another
+ * task. We need to push it first before
+ * installing our new state
+ */
+ set = ctxp->active_set;
+ pfm_modview_begin(set);
+ pfm_save_pmds(ctxp, set);
+ set->view->set_status &= ~PFM_SETVFL_ACTIVE;
+ pfm_modview_end(set);
+ /*
+ * do not clear ownership because we rewrite
+ * right away
+ */
+}
+
+void pfm_save_pmds(struct pfm_context *ctx, struct pfm_event_set *set)
+{
+ u64 val, hw_val, *pmds, ovfl_mask;
+ u64 *used_mask, *cnt_mask;
+ u16 i, num;
+
+ ovfl_mask = pfm_pmu_conf->ovfl_mask;
+ num = set->nused_pmds;
+ cnt_mask = pfm_pmu_conf->cnt_pmds;
+ used_mask = set->used_pmds;
+ pmds = set->view->set_pmds;
+
+ for (i = 0; num; i++) {
+ if (pfm_bv_isset(used_mask, i)) {
+ hw_val = val = pfm_read_pmd(ctx, i);
+ if (likely(pfm_bv_isset(cnt_mask, i)))
+ val = (pmds[i] & ~ovfl_mask) |
+ (hw_val & ovfl_mask);
+ pmds[i] = val;
+ num--;
+ }
+ }
+}
+
+/*
+ * interrupts are disabled (no preemption)
+ */
+static void __pfm_ctxswin_thread(struct task_struct *task,
+ struct pfm_context *ctx, u64 now)
+{
+ u64 cur_act;
+ struct pfm_event_set *set;
+ int reload_pmcs, reload_pmds;
+ int mycpu;
+ u64 start;
+
+ __get_cpu_var(pfm_stats).pfm_ccnt2++;
+ start = sched_clock();
+
+ mycpu = smp_processor_id();
+
+ /*
+ * we need to lock context because it could be accessed
+ * from another CPU
+ */
+ spin_lock(&ctx->lock);
+
+ cur_act = __get_cpu_var(pmu_activation_number);
+
+ set = ctx->active_set;
+
+ /*
+ * in case fo zombie, we do not complete ctswin of the
+ * PMU, and we force a call to pfm_handle_work() to finish
+ * cleanup, i.e., free context + smpl_buff. The reason for
+ * deferring to pfm_handle_work() is that it is not possible
+ * to vfree() with interrupts disabled.
+ */
+ if (unlikely(ctx->state == PFM_CTX_ZOMBIE)) {
+ ctx->flags.work_type = PFM_WORK_ZOMBIE;
+ set_tsk_thread_flag(task, TIF_PERFMON_WORK);
+ spin_unlock(&ctx->lock);
+ return;
+ }
+
+ if (set->flags & PFM_SETFL_TIME_SWITCH)
+ __get_cpu_var(pfm_syst_info) = PFM_CPUINFO_TIME_SWITCH;
+
+ /*
+ * if we were the last user of the PMU on that CPU,
+ * then nothing to do except restore psr
+ */
+ if (ctx->last_cpu == mycpu && ctx->last_act == cur_act) {
+ /*
+ * check for forced reload conditions
+ */
+ reload_pmcs = set->priv_flags & PFM_SETFL_PRIV_MOD_PMCS;
+ reload_pmds = set->priv_flags & PFM_SETFL_PRIV_MOD_PMDS;
+ } else {
+#ifndef CONFIG_SMP
+ struct pfm_context *ctxp;
+ ctxp = __get_cpu_var(pmu_ctx);
+ if (ctxp)
+ pfm_save_prev_context(ctxp);
+#endif
+ reload_pmcs = 1;
+ reload_pmds = 1;
+ }
+ /* consumed */
+ set->priv_flags &= ~PFM_SETFL_PRIV_MOD_BOTH;
+
+ if (reload_pmds)
+ pfm_arch_restore_pmds(ctx, set);
+
+ /*
+ * need to check if had in-flight interrupt in
+ * pfm_ctxswout_thread(). If at least one bit set, then we must replay
+ * the interrupt to avoid losing some important performance data.
+ *
+ * npend_ovfls is cleared in interrupt handler
+ */
+ if (set->npend_ovfls) {
+ pfm_arch_resend_irq();
+ __get_cpu_var(pfm_stats).pfm_ovfl_intr_replay_count++;
+ }
+
+ if (reload_pmcs)
+ pfm_arch_restore_pmcs(ctx, set);
+
+ /*
+ * record current activation for this context
+ */
+ pfm_inc_activation();
+ pfm_set_last_cpu(ctx, mycpu);
+ pfm_set_activation(ctx);
+
+ /*
+ * establish new ownership.
+ */
+ pfm_set_pmu_owner(task, ctx);
+
+ pfm_arch_ctxswin_thread(task, ctx, set);
+ /*
+ * set->duration does not count when context in MASKED state.
+ * set->duration_start is reset in unmask_monitoring()
+ */
+ set->duration_start = now;
+
+ spin_unlock(&ctx->lock);
+ __get_cpu_var(pfm_stats).pfm_ccnt3 += sched_clock() - start;
+}
+
+/*
+ * interrupts are masked, runqueue lock is held.
+ *
+ * In UP. we simply stop monitoring and leave the state
+ * in place, i.e., lazy save
+ */
+static void __pfm_ctxswout_thread(struct task_struct *task,
+ struct pfm_context *ctx, u64 now)
+{
+ struct pfm_event_set *set;
+ int need_save_pmds;
+ u64 start;
+
+ __get_cpu_var(pfm_stats).pfm_ccnt0++;
+ start = sched_clock();
+ /*
+ * we need to lock context because it could be accessed
+ * from another CPU
+ */
+ spin_lock(&ctx->lock);
+
+ set = ctx->active_set;
+
+ pfm_modview_begin(set);
+
+ /*
+ * stop monitoring and
+ * collect pending overflow information
+ * needed on ctxswin. We cannot afford to lose
+ * a PMU interrupt.
+ */
+ need_save_pmds = pfm_arch_ctxswout_thread(task, ctx, set);
+
+ /*
+ * accumulate only when set is actively monitoring,
+ */
+ if (ctx->state == PFM_CTX_LOADED)
+ set->duration += now - set->duration_start;
+
+#ifdef CONFIG_SMP
+ /*
+ * in SMP, release ownership of this PMU.
+ * PMU interrupts are masked, so nothing
+ * can happen.
+ */
+ pfm_set_pmu_owner(NULL, NULL);
+
+ /*
+ * On some architectures, it is necessary to read the
+ * PMD registers to check for pending overflow in
+ * pfm_arch_ctxswout_thread(). In that case, saving of
+ * the PMDs may be done there and not here.
+ */
+ if (need_save_pmds)
+ pfm_save_pmds(ctx, set);
+#endif
+ pfm_modview_end(set);
+
+ /*
+ * clear cpuinfo, cpuinfo is used in
+ * per task mode with the set time switch flag.
+ */
+ __get_cpu_var(pfm_syst_info) = 0;
+
+ spin_unlock(&ctx->lock);
+ __get_cpu_var(pfm_stats).pfm_ccnt1 += sched_clock() - start;
+}
+
+/*
+ * no need to lock the context. To operate on a system-wide
+ * context, the task has to run on the monitored CPU. In the
+ * case of close issued on another CPU, an IPI is sent but
+ * this routine runs with interrupts masked, so we are
+ * protected
+ *
+ * On some architectures, such as IA-64, it may be necessary
+ * to intervene during the context even in system-wide mode
+ * to modify some machine state.
+ */
+static void __pfm_ctxsw_sys(struct task_struct *prev,
+ struct task_struct *next)
+{
+ struct pfm_context *ctx;
+ struct pfm_event_set *set;
+
+ ctx = __get_cpu_var(pmu_ctx);
+ if (!ctx) {
+ pr_info("prev=%d tif=%d ctx=%p next=%d tif=%d ctx=%p\n",
+ prev->pid,
+ test_tsk_thread_flag(prev, TIF_PERFMON_CTXSW),
+ prev->pfm_context,
+ next->pid,
+ test_tsk_thread_flag(next, TIF_PERFMON_CTXSW),
+ next->pfm_context);
+ BUG_ON(!ctx);
+ }
+
+ set = ctx->active_set;
+
+ /*
+ * propagate TIF_PERFMON_CTXSW to ensure that:
+ * - previous task has TIF_PERFMON_CTXSW cleared, in case it is
+ * scheduled onto another CPU where there is syswide monitoring
+ * - next task has TIF_PERFMON_CTXSW set to ensure it will come back
+ * here when context switched out
+ */
+ clear_tsk_thread_flag(prev, TIF_PERFMON_CTXSW);
+ set_tsk_thread_flag(next, TIF_PERFMON_CTXSW);
+
+ /*
+ * nothing to do until actually started
+ * XXX: assumes no mean to start from user level
+ */
+ if (!ctx->flags.started)
+ return;
+
+ pfm_arch_ctxswout_sys(prev, ctx, set);
+ pfm_arch_ctxswin_sys(next, ctx, set);
+}
+
+/*
+ * come here when either prev or next has TIF_PERFMON_CTXSW flag set
+ * Note that this is not because a task has TIF_PERFMON_CTXSW set that
+ * it has a context attached, e.g., in system-wide on certain arch.
+ */
+void __pfm_ctxsw(struct task_struct *prev, struct task_struct *next)
+{
+ struct pfm_context *ctxp, *ctxn;
+ u64 now;
+
+ now = sched_clock();
+
+ ctxp = prev->pfm_context;
+ ctxn = next->pfm_context;
+
+ if (ctxp)
+ __pfm_ctxswout_thread(prev, ctxp, now);
+
+ if (ctxn)
+ __pfm_ctxswin_thread(next, ctxn, now);
+
+ /*
+ * given that prev and next can never be the same, this
+ * test is checking that ctxp == ctxn == NULL which is
+ * an indication we have an active system-wide session on
+ * this CPU
+ */
+ if (ctxp == ctxn)
+ __pfm_ctxsw_sys(prev, next);
+
+ __get_cpu_var(pfm_stats).pfm_ctxsw_count++;
+ __get_cpu_var(pfm_stats).pfm_ctxsw_ns += sched_clock() - now;
+}
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